Vladimir Leonov
Book: ResearchGate
For citation
Leonov Vladimir (2010). Chapter 9. Gravitational waves: Wave equations. – From the book: Leonov V. S. Quantum Energetics. Volume 1. Theory of Superunification. Cambridge International Science Publishing, 2010, 745 pages, pp. 603-650. – Book: ResearchGate, PDF: https://www.researchgate.net/publication/357876433
Abstract
This is the first quantum theory of gravitational waves not related to Einstein's GR tensor model. We need a medium to create a gravitational wave that is able to form and carry gravitational waves as a wave perturbation of this medium. This is a luminiferous medium in the form of a quantized space-time, which is simultaneously a carrier of gravity and gravitational wave perturbation in the framework of the quantum theory of gravity as part of the theory of Superunification. The carrier of gravity and the carrier of a gravitational wave is a quantum of space-time (quanton) in the form of a 4D-tetraquark. Such a quantized space-time is the 4D-field of the Universe similar to the quasi-crystal structure of a solid body. A gravitational wave is a longitudinal deformation wave consisting of zones of compression and rarefaction of the quantized space-time inside its quasi-crystalline structure. A gravitational wave is an analog of ultrasound in a solid body, similar to a phonon. Sources of gravitational waves in terrestrial conditions are all bodies performing reciprocating motions with variable acceleration or deformation. For the first time, these studies of gravitational waves in terrestrial conditions were made by Professor Albert Veinik in the 80s of the 20th century using piezoelectric quartz sensors. But even earlier, Professor Nikolai Kozyrev, investigating the radiation of stars, found that in addition to light from a star, another beam comes out that goes along a different trajectory and at a different speed. I believe that Kozyrev was the first to discover gravitational waves in space. At present, astrophysicists are conducting many years of research on the registration of gravitational waves from space on expensive instruments, and at the same time they do not take into account the simple experiments of Veinik and Kozyrev, who were the first to register gravitational waves in the last century.
Key words: quantum thermodynamics; kinetic theory of heat; temperature; recoil force; photon; IR photon; radiation; orbital electron; atomic nucleus; quantized space-time; quantum gravity; physics of the atomic nucleus.
Comments: 48 pages, 13 figures.
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